Viability of red cells prepared with S-303 pathogen inactivation treatment.

Background: A nucleic acid-targeted pathogen inactivation process with S-303 was developed to treat red blood cells (RBCs).

Study Design And Methods: Three studies in healthy subjects investigated posttransfusion recovery, life span, and immunogenic potential of autologous RBCs treated with S-303 and stored for 35 days. A two-arm trial in 42 subjects (1A) examined recovery of 35-day-old S-303 RBCs after a single transfusion.

Hints to blood groupers, 1950.

Sixty years ago, the premier blood grouping laboratory was that of Robert Race in London. Agglutination tests and blood grouping had provided breakthroughs in immunology, genetics, and the solution of clinical problems. The significance of immunohematology was recognized by the clinical hematology community as a potent force in the expanding field of disorders of the blood and blood-forming organs.

The how and why of exocytic vesicles.

The purpose of this review is to draw the attention of general readers to the importance of cellular exocytic vesiculation as a normal mechanism of development and subsequent adjustment to changing conditions, focusing on red cell (RBC) vesiculation. Recent studies have emphasized the possible role of these microparticles as diagnostic and investigative tools. RBCs lose membrane, both in vivo and during ex vivo storage, by the blebbing of microvesicles from the tips of echinocytic spicules.

Collection of two units of leukoreduced RBCs from a single donation with a portable multiple-component collection system.

Background: A portable automated component collection system that produces double (2) units of leukoreduced RBCs (DRBCs) from a single donation was evaluated. This study analyzed quality of the collected and final products, the efficacy of automated leukoreduction, and donor safety.

Study Design And Methods: The system was used to collect 120 DRBCs.

Twelve-week RBC storage.

Background: Better storage can improve RBC availability and safety. Optimizing RBC ATP production and minimizing hemolysis has allowed progressively longer storage.

Study Design And Methods: In the first study, 24 units of packed CPD RBCs were pooled in groups of four, realiquoted, and added to 300 mL of one of four variants of experimental additive solution 76 (EAS-76) containing 45, 40, 35, or 30 mEq per L NaCl.

Storage of red blood cells: new approaches.

Longer red blood cell (RBC) storage can improve blood logistics, increase the usefulness of autologous blood storage, and reduce donor exposure in neonatal intensive care. Better RBC storage can prevent membrane loss and preserve the secretion of adenosine 5'-triphosphate (ATP) in response to deformation. Better RBC storage may also reduce the formation of proinflammatory membrane breakdown products that lead to transfusion-related acute lung injury and the systemic inflammatory response syndrome.

Alkaline CPD and the preservation of RBC 2,3-DPG.

Background: Concentrations of 2,3-DPG decline rapidly in the first week of RBC storage because of the low pH of conventional storage solutions. Alkaline additive solutions, which can preserve RBCs for up to 11 weeks, still do not preserve 2,3-DPG because the starting pH is below 7.2.